Image Display Apparatus and Image Display Method

1. An image display apparatus that displays an image based on a video signal, comprising: a grayscale display unit that divides said video signal for each field into a plurality of sub-fields, each of which is weighted according to the duration of time or number of pulses, and temporally superimposes said plurality of sub-fields for display to provide a grayscale representation; a field delay unit that delays a video signal for a current field by one field, and outputs said delayed video signal as a video signal for a previous field; a luminance gradient detector that detects a luminance gradient of said image based on said video signal for said current field and said video signal for said previous field output from said field delay unit; a differential calculator that calculates a difference between said video signal for said current field and said video signal for said previous field output from said field delay unit; and a motion amount calculator that calculates an amount of motion of said image based on the difference calculated by said different calculator and the gradient detected by said luminance gradient detector.

2. The image display apparatus according to claim 1 , wherein said luminance gradient detector includes a gradient determiner that detects a plurality of gradient values based on said video signal for said current field and said video signal for said previous field output from said field delay unit to determine a luminance gradient of said image based on said plurality of gradient values.

3. The image display apparatus according to claim 2 , wherein said luminance gradient detector includes an average gradient determiner that determines an average value of said plurality of gradient values as a luminance gradient of said image.

4. The image display apparatus according to claim 2 , wherein said luminance gradient detector includes a maximum gradient determiner that determines a maximum value of said plurality of gradient values as a luminance gradient of said image.

5. The image display apparatus according to claim 1 , wherein said video signal includes a red signal, a green signal, and a blue signal, said luminance gradient detector includes a color signal gradient detector that detects gradients between a red signal for said current field and a red signal for said previous field output from said field delay unit, between a green signal for said current field and a green signal for said previous field output from said field delay unit, and between a blue signal for said current field and a blue signal for said previous field output from said field delay unit, respectively, and said differential calculator includes a color signal differential calculator that calculates differences between said red signal for said current field and said red signal for said previous field output from said field delay unit, between said green signal for said current field and said green signal for said previous field output from said field delay unit, and between said blue signal for said current field and said blue signal for said previous field output from said field delay unit, respectively.

6. The image display apparatus according to claim 1 , wherein said video signal includes a red signal, a green signal, and a blue signal, and said image display apparatus further comprises a luminance signal generator that generates a luminance signal for said current field by synthesizing said red, green, and blue signals for said current field at a ratio of approximately 0.30:0.59:0.11, and generates a luminance signal for said previous field by synthesizing said red, green, and blue signals output from said field delay unit at a ratio of approximately 0.30:0.59:0.11, and wherein said luminance gradient detector detects a luminance gradient of said image based on said luminance signal for said current field and said luminance signal for said previous field output from said field delay unit, and said differential calculator calculates a difference between said luminance signal for said current field and said luminance signal for said previous field output from said field delay unit.

7. The image display apparatus according to claim 1 , wherein said video signal includes a red signal, a green signal, and a blue signal, said image display apparatus further comprises a luminance signal generator that generates a luminance signal for said current field by synthesizing red, green, and blue signals for said current field at any of the ratios of approximately 2:1:1, approximately 1:2:1, and approximately 1:1:2, and generates a luminance signal for said previous field by synthesizing red, green, and blue signals for said previous field output from said field delay unit at any of the ratios of approximately 2:1:1, approximately 1:2:1, and approximately 1:1:2, and wherein said luminance gradient detector detects a luminance gradient of said image based on said luminance signal for said current field and said luminance signal for said previous field output from said field delay unit, and said differential calculator calculates a difference between said luminance signal for said current field and said luminance signal for said previous field output from said field delay unit.

8. The image display apparatus according to claim 1 , wherein said video signal includes a luminance signal, and said luminance gradient detector detects a gradient based on said luminance signal.

9. The image display apparatus according to claim 1 , wherein said luminance gradient detector includes a gradient value detector that detects a plurality of gradient values using video signals of a plurality of pixels surrounding a pixel of interest.

10. The image display apparatus according to claim 1 , wherein said motion amount calculator includes calculating said amount of motion by calculating a ratio of said difference calculated by said differential calculator to said luminance gradient of said image detected by said luminance gradient detector.

11. The image display apparatus according to claim 1 , wherein said video signal includes a red signal, a green signal, and a blue signal, and said luminance gradient detector includes a color signal gradient detector that detects gradients between a red signal for said current field and a red signal for said previous field output from said field delay unit, between a green signal for said current field and a green signal for said previous field output from said field delay unit, and between a blue signal for said current field and a blue signal for said previous field output from said field delay unit, respectively, said differential detector includes a color signal differential calculator that calculates differences between said red signal for said current field and said red signal for said previous field output from said field delay unit, between said green signal for said current field and said green signal for said previous field output from said field delay unit, and between said blue signal for said current field and said blue signal for said previous field output from said field delay unit, respectively, and said motion amount calculator calculates a ratio of said difference between said red signals calculated by said color signal differential calculator to said gradient between said red signals detected by said color signal gradient detector, a ratio of said difference between said green signals calculated by said color signal differential calculator to said gradient between said green signals detected by said color signal gradient detector, and a ratio of said difference between said blue signals calculated by said color signal differential calculator to said gradient between said blue signals detected by said color signal gradient detector, so as to determine amounts of motion corresponding to said red, green, and blue signals, respectively.

12. The image display apparatus according to claim 1 , further comprising an image processor that performs image processing on said video signal based on said amount of motion of said image calculated by said motion amount calculator.

13. The image display apparatus according to claim 12 , wherein said image processor includes a diffusion processor that performs diffusion processing based on said amount of motion calculated by said motion amount calculator.

14. The image display apparatus according to claim 13 , wherein said diffusion processor varies an amount of diffusion based on said amount of motion calculated by said motion amount calculator.

15. The image display apparatus according to claim 13 , wherein said diffusion processor performs a temporal and/or spatial diffusion based on said amount of motion calculated by said motion amount calculator in said grayscale representation by said grayscale display unit.

16. The image display apparatus according to claim 13 , wherein said diffusion processor performs error diffusion so as to diffuse a difference between an unrepresentable grayscale level and a representable grayscale level close to said unrepresentable grayscale level to surrounding pixels based on said amount of motion calculated by said motion amount calculator in said grayscale representation by said grayscale display unit.

17. The image display apparatus according to claim 12 , wherein said image processor selects a combination of grayscale levels based on said amount of motion calculated by said motion amount calculator in said grayscale representation by said grayscale display unit.

18. The image display apparatus according to claim 12 , wherein said image processor selects a combination of grayscale levels that is more unlikely to cause a dynamic false contour as said amount of motion calculated by said motion amount calculator becomes greater.

19. An image display method for displaying an image based on a video signal, comprising the steps of: dividing said video signal for each field into a plurality of sub-fields, each of which is weighted according to the duration of time or number of pulses, and temporally superimposing said plurality of sub-fields for display to provide a grayscale representation; delaying a video signal for a current field by one field, and outputting said delayed video signal as a video signal for a previous field; detecting a luminance gradient of said image based on said video signal for said current field and said video signal for said previous field; calculating a difference between said video signal for said current field and said video signal for said previous field; and calculating an amount of motion of said image based on said calculated difference and said detected gradient.

20. The image display method according to claim 19 , further comprising the step of performing image processing on said video signal based on said calculated amount of motion of said image.